CN216145959U

CN216145959U - Energy-saving cabinet for industrial power grid

Info

Publication number: CN216145959U
Application number: CN202121796731.3U
Authority: CN
Inventors: 党尹桦
Original assignee: Individual
Current assignee: Daqing Weishen Kangshun Petroleum Equipment Co ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2022-03-29
Anticipated expiration: 2031-08-03

Abstract

The utility model provides an energy-saving cabinet for an industrial power grid, which comprises a box body, wherein a sliding door is arranged on the left side of the outer surface of the box body through a lifting mechanism, and the sliding door comprises a rack, a ventilation opening, a movable plate, a transmission wheel and a rotating wheel. According to the utility model, through the arrangement of the rubber bolt and the sleeve spring, the resilience force of the sleeve spring enables the rubber bolt to be tightly attached to the sliding door, so that the rubber bolt can prevent the rotating wheel from rotating, the effect of preventing the rotating of the driving wheel is achieved, and the effect of fixing the opening angle of the movable plate is achieved.

Description

Energy-saving cabinet for industrial power grid

Technical Field

The utility model relates to the technical field of energy-saving cabinets, in particular to an energy-saving cabinet for an industrial power grid.

Background

The energy-saving cabinet is called as a control cabinet, and improves related electrical parameters through the electrical characteristics of the energy-saving cabinet in a circuit, so that the energy-saving effect is achieved;

the existing energy-saving cabinet is convenient to open the cabinet door, and the opening closing degree of the ventilation opening is difficult to adjust according to the heat dissipation requirement of the energy-saving cabinet;

for example, in the prior art, the patent number is ZL201921151064.6, when the sliding door needs to be opened, the device can squeeze a button on the left side down by feet, the micro motor rotates through a pinion to drive a toothed belt to transmit clockwise, the sliding door on the right side is driven by a sliding block to move rightwards, and the sliding door on the left side is driven by the sliding block on the left side to move leftwards, so that the sliding door is convenient to open; when the sealing degree of the ventilation opening needs to be adjusted, the rotating button is rotated to drive the driving wheels to rotate, so that the driving wheels are driven by the driving belt to rotate simultaneously, and the movable plate can be driven by the shaft lever to movably adjust the sealing degree of the ventilation opening;

however, the research and analysis show that:

when the device is used for adjusting the sealing degree of the ventilation opening, the rotating button is rotated to drive the driving wheel to rotate, the driving wheel is driven by the driving belt to rotate simultaneously, so that the effect of adjusting the rotation of the movable plate is achieved, although the movable plate achieves the effect of adjusting the sealing degree of the ventilation opening, the rotated angle of the movable plate cannot be fixed, and the movable plate can rotate automatically under the action of gravity, so that the heat dissipation effect is influenced;

the sliding door of the device is opened by sliding left and right, and when the energy-saving cabinet is installed, in order to save space, a plurality of energy-saving cabinets are usually installed together, and a large amount of installation space is wasted due to the opening mode of the sliding door sliding left and right.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the background technology, and provides an energy-saving cabinet for an industrial power grid.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an energy-saving cabinet for an industrial power grid comprises a box body, wherein a sliding door is arranged on the left side of the outer surface of the box body through a lifting mechanism;

the sliding door comprises a gear strip, a ventilation opening, a movable plate, driving wheels, rotating wheels, rubber bolts, a sleeve spring and a transmission belt, wherein the gear strip is positioned on the left side of the outer surface of the sliding door, the ventilation opening is positioned in the center of the outer surface of the sliding door, the movable plate is arranged in the ventilation opening in a rotating mode, the right side surface of the sliding door is provided with the driving wheels in a penetrating mode through a pin shaft, the rotating wheels are arranged above the right side surface of the sliding door in a rotating mode through bearings in a rotating mode, the rubber bolts are arranged above the right side surface of the rotating wheels in a penetrating mode, the sleeve spring is installed between caps of the rubber bolts and the rotating wheels, and the transmission belt is arranged between the driving wheels and the rotating wheels in a sleeved mode.

Preferably, the sleeve spring is in a stretching state, and the rubber bolt is tightly attached to the right side surface of the sliding door.

Preferably, the inner side of the transmission belt is provided with a gear, and the outer side surfaces of the transmission wheel and the rotating wheel are provided with gears.

Preferably, elevating system is including L shape strip, track groove, mounting panel, small motor and gear, install in the outside surface left side of box bottom of L shape strip, the outside surface of L shape strip runs through and is provided with the track groove, two mounting panels, right side are installed to the outside surface top of L shape strip the outer surface mounting of mounting panel has small motor, the gear is installed to the small motor output.

Preferably, the gear rack is embedded in the track groove, and the gear rack can slide up and down along the track groove.

Preferably, the gear and the gear rack are mutually clamped.

And the pin shaft on the left side of the driving wheel is fixed on the movable plate.

The bottom of the outer surface of the L-shaped strip is provided with a control switch, and the small motor is electrically connected with an external power supply through the control switch.

The utility model provides an industrial power grid energy-saving cabinet which has the following beneficial effects:

through the arrangement of the rubber bolt and the sleeve spring, the resilience force of the sleeve spring enables the rubber bolt to be tightly attached to the sliding door, so that the rubber bolt can prevent the rotating wheel from rotating, and the effect of fixing the opening angle of the movable plate is achieved;

the gear is driven to rotate through the small motor, the gear drives the gear rack to slide, the effect of opening the sliding door is achieved, and the sliding door is opened upwards to avoid occupying the space on the left side and the right side of the box body.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1A of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 1B of the present invention.

Illustration of the drawings:

1-box body, 2-sliding door, 201-gear strip, 202-ventilation opening, 203-movable plate, 204-transmission wheel, 205-rotating wheel, 206-rubber bolt, 207-sleeve spring, 208-transmission belt, 3-L-shaped strip, 301-track groove, 302-mounting plate, 303-small motor and 304-gear.

Detailed Description

Referring to fig. 1-3, an energy-saving cabinet for an industrial power grid comprises a box body 1, wherein a sliding door 2 is installed on the left side of the outer surface of the box body 1 through a lifting mechanism;

the sliding door 2 comprises a gear strip 201, a ventilation port 202, a movable plate 203, transmission wheels 204, rotating wheels 205, rubber bolts 206, a sleeve spring 207 and a transmission belt 208, the gear strip 201 is located on the left side of the outer surface of the sliding door 2, the ventilation port 202 is located in the center of the outer side surface of the sliding door 2, the movable plate 203 is arranged in the ventilation port 202 in a rotating mode, a plurality of transmission wheels 204 are arranged on the right side surface of the sliding door 2 in a penetrating mode through pin shafts, the rotating wheels 205 are arranged above the right side surface of the sliding door 2 in a rotating mode through bearings, the rubber bolts 206 are arranged above the right side surface of the rotating wheels 205 in a penetrating mode, the sleeve spring 207 is installed between caps of the rubber bolts 206 and the rotating wheels 205, and the transmission belt 208 is arranged between the transmission wheels 204 and the rotating wheels 205 in a sleeved mode.

In this embodiment, the sleeve spring 207 is in a stretched state, and the rubber bolt 206 is tightly attached to the right side surface of the sliding door 2, and the rotation of the rotating wheel 205 is prevented by the friction force between the rubber bolt 206 and the sliding door 2, so as to achieve the effect of preventing the rotation of the driving wheel 204, and fix the opening angle of the movable plate 203.

In this embodiment, gears are disposed on the inner side of the transmission belt 208, and gears are disposed on the outer side surfaces of the transmission wheel 204 and the rotating wheel 205, so that the rotating wheel 205 can drive the transmission wheel 204 to rotate through the transmission belt 208.

In this embodiment, elevating system is including L shape strip 3, track groove 301, mounting panel 302, small motor 303 and gear 304, and the bottom of L shape strip 3 is installed in the outside surface left side of box 1, and the outside surface of L shape strip 3 runs through and is provided with track groove 301, and two mounting panels 302 are installed to the outside surface top of L shape strip 3, and the surface mounting of right side mounting panel 302 has small motor 303, and gear 304 is installed to small motor 303 output.

In this embodiment, the gear bar 201 is embedded in the track groove 301, and the gear bar 201 can slide up and down along the track groove 301, so that the gear bar 201 can drive the sliding door 2 to slide up and down.

In this embodiment, the gear 304 and the gear rack 201 are engaged with each other, and the gear rack 201 is driven to rotate by the rotation of the gear 304.

The pin shaft on the left side of the transmission wheel 204 is fixed on the movable plate 203, so that the transmission wheel 204 can drive the movable plate 203 to rotate.

The working principle is as follows: when the sealing degree of the ventilation opening needs to be adjusted, the rubber bolt 206 is pulled to the outside, so that the rubber bolt 206 cannot be close to the sliding door 2, then the rotating wheel 205 is rotated, the rotating wheel 205 drives the driving wheel 204 to rotate through the driving belt 208, the movable plate 204 is rotated, the effect of adjusting the sealing degree of the ventilation opening is achieved, the rubber bolt 206 is loosened, the resilience force of the sleeve spring 207 enables the rubber bolt 206 to be attached to the right side surface of the sliding door, the rotating wheel 205 is prevented from rotating by the friction force between the rubber bolt 206 and the sliding door 2, and the effect of fixing the opening angle of the movable plate 203 is achieved;

when sliding door 2 needs to be opened, through opening small motor 303, small motor 303 drives gear 304 anticlockwise rotation for gear 304 drives rack 201 and up-shifts, and rack 201 drives sliding door 2 and up-shifts, thereby reaches the effect of opening sliding door 2.

Claims

1. An energy-saving cabinet for an industrial power grid comprises a box body (1) and is characterized in that a sliding door (2) is mounted on the left side of the outer surface of the box body (1) through a lifting mechanism;

the sliding door (2) comprises a rack (201), a ventilation port (202), a movable plate (203), transmission wheels (204), rotating wheels (205), rubber bolts (206), a sleeve spring (207) and a transmission belt (208), wherein the rack (201) is positioned on the left side of the outer surface of the sliding door (2), the ventilation port (202) is positioned in the center of the outer surface of the sliding door (2), the movable plate (203) is rotatably arranged in the ventilation port (202), the right surface of the sliding door (2) is provided with the transmission wheels (204) in a penetrating manner through pin shafts, the rotating wheels (205) are rotatably arranged above the right surface of the sliding door (2) through bearings, the rubber bolts (206) are arranged above the right surface of the rotating wheels (205) in a penetrating manner, and the sleeve spring (207) is arranged between caps of the rubber bolts (206) and the rotating wheels (205), a driving belt (208) is sleeved between the driving wheel (204) and the rotating wheel (205).

2. The industrial grid energy-saving cabinet according to claim 1, characterized in that the sleeve spring (207) is in tension, and the rubber bolt (206) is tightly attached to the right side surface of the sliding door (2).

3. The industrial power grid energy-saving cabinet according to claim 1, wherein gears are arranged on the inner side of the transmission belt (208), and gears are arranged on the outer side surfaces of the transmission wheel (204) and the rotating wheel (205).

4. The industrial power grid energy-saving cabinet according to claim 1, wherein the lifting mechanism comprises an L-shaped bar (3), a track groove (301), a mounting plate (302), a small motor (303) and a gear (304), the bottom of the L-shaped bar (3) is mounted on the left side of the outer surface of the box body (1), the track groove (301) is arranged on the outer side surface of the L-shaped bar (3) in a penetrating mode, the two mounting plates (302) are mounted above the outer side surface of the L-shaped bar (3), the small motor (303) is mounted on the outer surface of the mounting plate (302), and the gear (304) is mounted at the output end of the small motor (303).

5. The industrial power grid energy-saving cabinet according to claim 1 or 4, wherein the gear rack (201) is embedded in the track groove (301), and the gear rack (201) can slide up and down along the track groove (301).

6. The industrial power grid energy-saving cabinet according to claim 1 or 4, wherein the gear (304) and the gear rack (201) are clamped with each other.